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1. Tonic extracellular glutamate and ischaemia: glutamate antiporter system x _c ⁻ regulates anoxic depolarization in hippocampus

   https://doi.org/10.1113/JP283880  

   Heit, Bradley S.; Chu, Alex; Sane, Abhay; Featherstone, David E.; Park, Thomas J.; Larson, John (November 2022, The Journal of Physiology)

   AbstractIn stroke, the sudden deprivation of oxygen to neurons triggers a profuse release of glutamate that induces anoxic depolarization (AD) and leads to rapid cell death. Importantly, the latency of the glutamate‐driven AD event largely dictates subsequent tissue damage. Although the contribution of synaptic glutamate during ischaemia is well‐studied, the role of tonic (ambient) glutamate has received far less scrutiny. The majority of tonic, non‐synaptic glutamate in the brain is governed by the cystine/glutamate antiporter, system x_c⁻. Employing hippocampal slice electrophysiology, we showed that transgenic mice lacking a functional system x_c⁻display longer latencies to AD and altered depolarizing waves compared to wild‐type mice after total oxygen deprivation. Experiments which pharmacologically inhibited system x_c⁻, as well as those manipulating tonic glutamate levels and those antagonizing glutamate receptors, revealed that the antiporter's putative effect on ambient glutamate precipitates the ischaemic cascade. As such, the current study yields novel insight into the pathogenesis of acute stroke and may direct future therapeutic interventions.image Key pointsIschaemic stroke remains the leading cause of adult disability in the world, but efforts to reduce stroke severity have been plagued by failed translational attempts to mitigate glutamate excitotoxicity.Elucidating the ischaemic cascade, which within minutes leads to irreversible tissue damage induced by anoxic depolarization, must be a principal focus.Data presented here show that tonic, extrasynaptic glutamate supplied by system x_c⁻synergizes with ischaemia‐induced synaptic glutamate release to propagate AD and exacerbate depolarizing waves.Exploiting the role of system x_c⁻and its obligate release of ambient glutamate could, therefore, be a novel therapeutic direction to attenuate the deleterious effects of acute stroke. 

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2. Prediction of Alzheimer's disease progression within 6 years using speech: A novel approach leveraging language models

   https://doi.org/10.1002/alz.13886  

   Amini, Samad; Hao, Boran; Yang, Jingmei; Karjadi, Cody; Kolachalama, Vijaya_B; Au, Rhoda; Paschalidis, Ioannis_C (June 2024, Alzheimer's & Dementia)

   Abstract INTRODUCTIONIdentification of individuals with mild cognitive impairment (MCI) who are at risk of developing Alzheimer's disease (AD) is crucial for early intervention and selection of clinical trials. METHODSWe applied natural language processing techniques along with machine learning methods to develop a method for automated prediction of progression to AD within 6 years using speech. The study design was evaluated on the neuropsychological test interviews ofn = 166 participants from the Framingham Heart Study, comprising 90 progressive MCI and 76 stable MCI cases. RESULTSOur best models, which used features generated from speech data, as well as age, sex, and education level, achieved an accuracy of 78.5% and a sensitivity of 81.1% to predict MCI‐to‐AD progression within 6 years. DISCUSSIONThe proposed method offers a fully automated procedure, providing an opportunity to develop an inexpensive, broadly accessible, and easy‐to‐administer screening tool for MCI‐to‐AD progression prediction, facilitating development of remote assessment. HighlightsVoice recordings from neuropsychological exams coupled with basic demographics can lead to strong predictive models of progression to dementia from mild cognitive impairment.The study leveraged AI methods for speech recognition and processed the resulting text using language models.The developed AI‐powered pipeline can lead to fully automated assessment that could enable remote and cost‐effective screening and prognosis for Alzehimer's disease. 

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3. The airborne herbivore‐induced plant volatile indole is converted to benzoxazinoid defense compounds in maize plants

   https://doi.org/10.1111/nph.70004  

   Sorg, Ariel; Luo, Zhi‐Wei; Li, Qin‐Bao; Roy, Kristin; Basset, Gilles_J; Kim, Jeongim; Hunter, Charles; Chapple, Clint; Rering, Caitlin; Block, Anna_K (February 2025, New Phytologist)

   Summary Herbivore‐induced plant volatiles act as danger signals to prime defense responses in neighboring plants, yet in many cases the mechanism behind this priming is not known. Volatile signals may be recognized directly by receptors and/or converted into other active compounds. Here we investigate the metabolic fate of volatile indole, a known priming signal in maize (Zea mays), to determine if its conversion to other compounds could play a role in its priming of defenses.We identified benzoxazinoids as major products from volatile indole using heavy isotope‐labeled volatile indole and Pathway of Origin Determination in Untargeted Metabolomics (PODIUM) analysis. We then used benzoxazinoid biosynthesis maize mutants to investigate their role in indole‐mediated priming.Labeled volatile indole was converted into DIMBOA‐glucoside in abx2(benzoxazinone synthesis2)‐dependent manner. Thebx2mutant plants showed elevated green leaf volatile (GLV) production in response to wounding andSpodoptera frugiperdaregurgitant irrespective of indole exposure.Thus, volatile indole is converted into benzoxazinoids, and part of its priming mechanism may be due to the enhanced production of these phytoanticipins. However, indole‐mediated enhanced GLV production does not rely on the conversion of indole to benzoxazinoids, so indole also has other signaling functions. 

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4. Integrating amyloid imaging and genetics for early risk stratification of Alzheimer's disease

   https://doi.org/10.1002/alz.14244  

   He, Bing; Wu, Ruiming; Sangani, Neel; Pugalenthi, Pradeep_Varathan; Patania, Alice; Risacher, Shannon_L; Nho, Kwangsik; Apostolova, Liana_G; Shen, Li; Saykin, Andrew_J; et al (September 2024, Alzheimer's & Dementia)

   Abstract INTRODUCTIONAlzheimer's disease (AD) initiates years prior to symptoms, underscoring the importance of early detection. While amyloid accumulation starts early, individuals with substantial amyloid burden may remain cognitively normal, implying that amyloid alone is not sufficient for early risk assessment. METHODSGiven the genetic susceptibility of AD, a multi‐factorial pseudotime approach was proposed to integrate amyloid imaging and genotype data for estimating a risk score. Validation involved association with cognitive decline and survival analysis across risk‐stratified groups, focusing on patients with mild cognitive impairment (MCI). RESULTSOur risk score outperformed amyloid composite standardized uptake value ratio in correlation with cognitive scores. MCI subjects with lower pseudotime risk score showed substantial delayed onset of AD and slower cognitive decline. Moreover, pseudotime risk score demonstrated strong capability in risk stratification within traditionally defined subgroups such as early MCI, apolipoprotein E (APOE) ε4+ MCI,APOEε4– MCI, and amyloid+ MCI. DISCUSSIONOur risk score holds great potential to improve the precision of early risk assessment. HighlightsAccurate early risk assessment is critical for the success of clinical trials.A new risk score was built from integrating amyloid imaging and genetic data.Our risk score demonstrated improved capability in early risk stratification. 

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5. Effects of anaerobic HRT and VFA loading on the kinetics and stoichiometry of enhanced biological phosphorus removal

   https://doi.org/10.1002/wer.1544  

   Coats, Erik R.; Deyo, Brent; Brower, Nicole; Brinkman, Cynthia K. (March 2021, Water Environment Research)

   Abstract Enhanced biological phosphorus removal (EBPR) can recover significant quantities of wastewater phosphorus. However, this resource recovery process realizes limited use largely due to process stability concerns. The research evaluated the effects of anaerobic HRT (τ_AN) and VFA concentration—critical operational parameters that can be externally controlled—on EBPR performance. Evaluated alone, τ_AN(1–4 h) exhibited no statistical effect on effluent phosphorus. However, PHA increased with VFA loading and biomass accumulated more phosphorus. Regarding resiliency, under increasing VFA loads PAOs hydrolyzed more phosphorus to uptake/catabolize VFAs; moreover, PHA synthesis normalized to VFA loading increased with τ_AN, suggesting fermentation. Kinetically, PAOs exhibited a Monod‐like relationships for qPHA_ANand qVFA_ANas a function of anaerobic P release; additionally, qP_AEexhibited a Monod‐like relationship with end‐anaerobic PHA concentration. A culminating analysis affirmed the relationship between enhanced aerobic P uptake, and net P removal, with a parameter (phosphorus removal propensity factor) that combines influent VFA concentration with τ_AN. Practitioner pointsEvaluated alone τ_ANexhibits no statistical effect on effluent phosphorus in an EBPR configuration.Increased PHA synthesis, associated with increased VFAs and/or extended τ_AN,enhances aerobic phosphorus removal.PHA synthesis normalized to VFA loading increased with τ_AN, suggesting fermentation in the EBPR anaerobic zone.Aerobic phosphorus uptake increases linearly with anaerobic phosphorus release, with the slope exceeding unity.Increased VFAs can be substituted for shorter anaerobic HRTs, and vice versa, to enhance EBPR performance. 

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